Оптимізація біотехнологічних систем

Abstract

The article considers the issues of software and hardware development for the automatization of the design of multilayer biotechnological systems that contain sources of thermal load, including sources of scanned laser radiation. The object of the authors' research is a multilayer microbiological material under the action of laser radiation sources. The purpose of the study is to develop principles for building software and hardware to improve the quality of the action process by taking into account the multilayer structure of the material under study and the technical parameters of the emitters. The authors present the main optimization problem of finding rational parameters of laser beam action on multilayer microbiological material taking into account restrictions on the resulting temperature field of the material to control the use of technical resources of emitters and ensure the viability of segments of microbiological material. It should be stated that to calculate and optimize the temperature of the laser, as well as the technical parameters of the radiators, in connection with the multilayer structure of the object, the authors propose to use a system of non-stationary, inhomogeneous, multidimensional differential equations of thermal conductivity with appropriate initial, boundary and conjugation conditions. layers of microbiological material. These features require significant time in the implementation of the procedure for solving a series of boundary value problems and providing an iterative process of finding rational parameters of thermal exposure. Therefore, it is advisable to implement this procedure on a specialized network analog or hybrid model. This will significantly reduce the time to solve edge problems at each iteration, which will increase the accuracy of solving the entire problem of finding laser parameters.